A kind of anaglyph spectacles eyeglass of liquid crystal display
Technical field
The utility model belongs to the anaglyph spectacles technical field, relates in particular to a kind of anaglyph spectacles eyeglass of liquid crystal display.
Background technology
Along with the raising of people's living standard, the visual effect of all kinds of images such as TV, film is required also more and more higher, stereo display technique is also thereupon constantly in development, and up till now for extremely, the stereoeffect major part all need realize by anaglyph spectacles.Common on the market have red blue glasses, utilize red blue filter paper as eyeglass, filter corresponding ruddiness or the spectrum picture of blue light respectively, the image that after human eye receives, synthesizes normal color at brain, because eyeglass itself has color, can make the cross-color of picture itself, the stereoeffect that presents is relatively poor.Also having a kind of is polaroid glasses, utilizes the polarized lenses of different polarization direction, and two groups of different pictures that receive via right and left eyes synthesize the 3D stereopsis through brain, because eyeglass is realized demonstration with the pattern separated into two parts, can reduce the resolution of picture.
The utility model content
The purpose of this utility model is to overcome above-mentioned the deficiencies in the prior art, and a kind of anaglyph spectacles eyeglass of liquid crystal display is provided, and has solved anaglyph spectacles image frame cross-color of the prior art and the low problem of screen resolution.
The utility model is achieved in that a kind of anaglyph spectacles eyeglass of liquid crystal display, comprises first polaroid, first electro-conductive glass, first oriented layer, liquid crystal layer, second oriented layer, second electro-conductive glass and second polaroid that stack successively arranges,
Described first polaroid is used for available light is transformed into polarized light;
Described first electro-conductive glass is used for seeing through described polarized light;
Described first oriented layer is coated on described first electro-conductive glass;
Described second oriented layer is coated on described second electro-conductive glass;
Described liquid crystal layer is arranged on described first oriented layer and second oriented layer;
Described first oriented layer and second oriented layer are used for when described first electro-conductive glass and second electro-conductive glass adding electric field, described first oriented layer and second oriented layer carry out orientation to the liquid crystal in the described liquid crystal layer, make the orientation of the liquid crystal in the described liquid crystal layer be parallel to described polarization direction of light, make described polarized light see through described liquid crystal layer, when described first electro-conductive glass and second electro-conductive glass did not add electric field, described liquid crystal layer did not see through described polarized light;
Described second polaroid is used for polarized light is transformed into available light.
Further, described first electro-conductive glass or second electro-conductive glass are provided with a connector, and described connector is electrically connected with a controller, and described controller is used for applying electric field or not applying electric field to described first electro-conductive glass and second electro-conductive glass.
Further, described liquid crystal layer both sides are respectively equipped with a back up pad, described back up pad upper end and the described first electro-conductive glass butt, described back up pad lower end and the described second electro-conductive glass butt.
The characteristic that the utility model utilizes the anaglyph spectacles eyeglass that light is controlled, left and right sides eyeglass be can control and printing opacity and shading state are in respectively, and switch rapidly, when left eyeglass transmitted light, right eyeglass light is blocked, this moment, human eye was only to watch left picture, and when right eyeglass transmitted light, left side eyeglass light is blocked, human eye circulates and so forth only to watch right picture at this moment, thereby makes human eye form sight equation, produce stereoeffect, reach the purpose of viewing and admiring stereopsis.
Anaglyph spectacles eyeglass of the present utility model can not make the image frame cross-color, the resolution height of picture.
Description of drawings
In order to be illustrated more clearly in the technical solution of the utility model, to do to introduce simply to the accompanying drawing of required use among the embodiment below, apparently, accompanying drawing in describing below only is embodiment more of the present utility model, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain other accompanying drawing according to these accompanying drawings.
Fig. 1 is the diagrammatic cross-section of the anaglyph spectacles eyeglass of the liquid crystal display that provides of the utility model embodiment.
Embodiment
Below in conjunction with the accompanying drawing among the utility model embodiment, the technical scheme among the utility model embodiment is clearly and completely described.
As shown in Figure 1, the anaglyph spectacles eyeglass of a kind of liquid crystal display that the utility model embodiment provides, comprise first polaroid 1, first electro-conductive glass 2, first oriented layer 3, liquid crystal layer 4, second oriented layer 5, second electro-conductive glass 6 and second polaroid 7 that stack successively arranges, wherein
Described first polaroid 1 is used for available light is transformed into polarized light, and namely light becomes polarized light after seeing through first polaroid 1;
Described first electro-conductive glass 2 is used for seeing through polarized light;
Described first oriented layer 3 is coated on first electro-conductive glass 2;
Described second oriented layer 5 is coated on second electro-conductive glass 6;
Described liquid crystal layer 4 is arranged on first oriented layer 3 and second oriented layer 5;
Described first oriented layer 3 and second oriented layer 5 are used for when first electro-conductive glass 2 and second electro-conductive glass, 6 adding electric fields, liquid crystal in first oriented layer 3 and 5 pairs of liquid crystal layers 4 of second oriented layer carries out orientation, make the orientation of the liquid crystal in the liquid crystal layer 4 be parallel to the polarization direction of light, make polarized light can see through liquid crystal layer 4, when first electro-conductive glass 2 and second electro-conductive glass 6 did not add electric field, liquid crystal layer 4 did not see through polarized light;
Described second polaroid 7 is used for polarized light is transformed into available light;
Described second electro-conductive glass 6 is provided with a connector 8, and connector 8 is electrically connected with a controller (not shown), and this controller is used for applying electric field or not applying electric field to first electro-conductive glass 2 and second electro-conductive glass 6;
Described liquid crystal layer 4 both sides are respectively equipped with a back up pad 9, back up pad 9 upper ends and first electro-conductive glass, 2 butts, back up pad 9 lower ends and second electro-conductive glass, 6 butts, thus a confined space formed, first oriented layer 3, liquid crystal layer 4 and second oriented layer 5 are contained in this confined space.
The principle of work of anaglyph spectacles eyeglass of the present utility model is: can add electric field or not add electric field first electro-conductive glass 2 and second electro-conductive glass 6 by controller; When first electro-conductive glass 2 and second electro-conductive glass, 6 adding electric fields, liquid crystal in first oriented layer 3 and 5 pairs of liquid crystal layers 4 of second oriented layer carries out orientation, make the orientation of the liquid crystal in the liquid crystal layer 4 be parallel to the polarization direction of light, make polarized light can see through liquid crystal layer 4, polarized light is transformed into available light and enters human eye through second polaroid 7 afterwards, and the eyeglass of this moment is in light transmission state; When first electro-conductive glass 2 and second electro-conductive glass 6 do not add electric field, first oriented layer 3 and second oriented layer 5 do not carry out orientation to the liquid crystal in the liquid crystal layer 4, the orientation of the liquid crystal in the liquid crystal layer 4 is disorderly and unsystematic, liquid crystal layer 4 does not see through polarized light, polarized light just can't enter human eye by second polaroid 7 like this, and the eyeglass of this moment is in the shading state.
Principle of work according to above-mentioned anaglyph spectacles eyeglass, the characteristic of utilizing the anaglyph spectacles eyeglass that light is controlled, left and right sides eyeglass be can control by controller and printing opacity and shading state are in respectively, and switch rapidly, when left eyeglass transmitted light, right eyeglass light is blocked, this moment, human eye was only to watch left picture, and when right eyeglass transmitted light, left eyeglass light is blocked, and this moment, human eye was only to watch right picture, circulation and so forth, thereby make human eye form sight equation, produce stereoeffect, reach the purpose of viewing and admiring stereopsis.
Anaglyph spectacles eyeglass of the present utility model can not make the image frame cross-color, the resolution height of picture.
The above is preferred implementation of the present utility model; should be pointed out that for those skilled in the art, under the prerequisite that does not break away from the utility model principle; can also make some improvements and modifications, these improvements and modifications also are considered as protection domain of the present utility model.